Award Data

Irregular warfare is increasingly the dominant form of military engagement. It is dynamic and unforgiving of errors, requiring warfighters to adapt fluidly to novel, complex, and ill-defined problems. The goal of this Phase II STTR is to implement and refine a training tool that builds adaptive expertise. The system teaches the learner to recognize and understand the fundamental principles underly ...

Logistic operations for all branches of the military have historically been a guessing game relying on the intuition and past experience of the responsible officials. Unfortunately, this strategy often means that resources are deployed prematurely to areas that do not have an immediate need, thereby denying those assets to other areas that could have used them immediately. Worse, resources can als ...

Nanoscale infrared detectors are emerging as a potentially powerful alternative to traditional infrared detector technologies. The University of New Mexico has developed dots in a double well (DDWELL) quantum dot infrared photodetectors which have a spectral responsivity that can be tuned by controlling the bias voltage applied. In this Phase II effort, Polaris Sensor and UNM would fabricate a g ...

Multi-modal (including spatial, spectral and polarimetric) photodetectors and focal plane arrays (FPA) can dramatically enhance the target detection, tracking and identification capability of a battle field sensing system. Most existing multi-spectral polarimetric sensing systems employ dispersive optics (gratings or prisms), or external polarizer technologies to obtain spectral and polarimetric c ...

Physical Sciences Inc. (PSI) will construct and demonstrate Li-ion cells for Naval Aviation applications using solvent free additive manufacturing techniques. Lithium-ion batteries simultaneously offering high energy and power density will be demonstrated using novel solvent-free electrode feedstocks. PSI will work with the Complex Fluids Lab (CFL) at the University of Connecticut to optimize the ...

Sciperio with team members Georgia Institute of Technology and Centecorp have teamed up to develop an Additive Manufacturing Composite using nano and micro fillers. The team will develop multi-scale models that are supported by experimental characterization for advanced 3D Printable materials. Inelastic response of high strength hierarchical structures composed of engineered materials and specif ...

The human auditory system out-performs all current machine-based systems for analyzing and interpreting real world acoustic environments. Central to that human performance is the method of auditory scene analysis used by listeners and the mechanisms that allow creation of auditory objects. BioMimetic Systems has implemented real-time biomimetic algorithms in embedded hardware based on the ‘whatâ ...

Northwest UAV Propulsion Systems proposes using our purpose built heavy fuel engine designed and built in the USA for small unmanned aerial systems in the tier 2 & 3 class. We will be adding a lightweight ceramic material set combined with FEA (Finite Element Analysis) and heavy fuel atomizer (IRAD Project) to create a lightweight engine for a SUAS or STUAS class UAVs. The Ceramic material set is ...

Our objective is to develop advanced mediator architectures for efficient electron transfer in enzymatic fuel cells (EFCs) for low power systems. The proposed EFC will leverage ongoing research at both CFDRC and Michigan State University to provide a fully-integrated lightweight, low-cost, manufacturable, and renewable power supply, for various military and civilian applications. EFC systems offer ...

Aerodyne Research, Inc. (ARI) and The University of Massachusetts at Amherst will collaborate to develop a novel technique for efficient mass spectrometric analysis of high molecular weight analytes such as proteins and polymers. Laser desorption and ionization with minimal analyte fragmentaton will be carried out on metal nanoparticle substrates in a particle beam sampled by Aerodyne’s proprie ...